KR100702047B1 - Mobile communication terminal enable to measure of distance using infrared-ray and its operating method - Google Patents

Abstract

The present invention relates to a mobile communication terminal having a distance measuring function using an infrared communication module, comprising: an infrared communication module for transmitting / receiving a signal having a high error rate, and a controller for calculating a error rate of the signal to measure a distance; By calculating the error rate by transmitting a signal to the subject through the infrared communication module and receiving a signal reflected from the subject, distance measurement using the error rate is possible, thereby increasing the utilization of the infrared communication module. have.

Mobile communication terminal, infrared communication module, error rate, error rate table

Description

Mobile communication terminal enable to measure of distance using infrared-ray and its operating method}

1 is a diagram showing the configuration of a mobile communication terminal according to the present invention;

2 is a block diagram showing the configuration of a mobile communication terminal according to the present invention;

3 is an exemplary diagram showing an embodiment of a mobile communication terminal according to the present invention;

4 is a flowchart illustrating a method of operating a mobile communication terminal according to the present invention.

<Explanation of symbols on main parts of the drawings>

10: infrared communication module 11: infrared transmitter

12: infrared receiver 13: signal converter

20: control unit 21: mode conversion unit

22: signal generator 23: distance measuring unit

The present invention relates to a mobile communication terminal equipped with a distance measuring function using an infrared communication module and a method of operating the same. In particular, the distance between the mobile communication terminal and a subject is determined by using an error rate of a signal transmitted / received through the infrared communication module. The present invention relates to a mobile communication terminal having a distance measuring function using an infrared communication module to measure and an operation method thereof.

Recently, when a mobile communication terminal wants to share information such as an MP3 (MPEG Audio layer3) file, Web data, etc. between the mobile communication terminals, the PC is an intermediate medium through a cable such as a universal serial bus cable (USB). Data is transmitted by accessing the network through the base station system.

In addition, the mobile communication terminal is equipped with an infrared communication module in the mobile communication terminal as its function is diversified, and between the mobile communication terminal and the mobile communication terminal or the mobile communication terminal and the PC using the infrared communication module. Data communication is now possible without the need for connection.

However, the conventional mobile communication terminal has low utilization because the infrared communication module is used only for data communication.

In addition, the mobile communication terminal transmits a signal using the infrared communication module, and calculates a time by calculating the time when the transmitted signal is reflected and returned, but when an error occurs among the transmitted signals There was a problem that distance measurement was difficult.

The present invention has been made to solve the above problems of the prior art, the distance using the infrared communication module for measuring the distance between the mobile communication terminal and the subject by calculating the error rate of the signal transmitted and received through the infrared communication module It is an object of the present invention to provide a mobile communication terminal having a measurement function and a method of operating the same.

Mobile communication terminal equipped with a distance measurement function using an infrared communication module according to the present invention for solving the above problems, an infrared communication module capable of wireless data communication using an infrared signal, the signal received through the infrared communication module A memory having an error rate table in which a distance value according to an error rate of the memory is stored, and a signal transmitted through the infrared communication module is reflected on a subject to calculate an error rate of a signal received by the infrared communication module, And a controller for calculating a distance according to the error rate calculated with reference to the error rate table.

In addition, the operating method of the mobile communication terminal equipped with the distance measurement function using the infrared communication module according to the present invention, the distance value according to the error rate of the signal received through the infrared communication module capable of wireless data communication using the infrared signal Setting a stored error rate table, transmitting a signal through the infrared communication module, receiving a signal reflected from a subject through the infrared communication module, calculating an error rate of the received signal, and calculating the error rate table For reference, the method may include calculating a distance according to the calculated error rate.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. 1 is a diagram showing the configuration of a mobile communication terminal according to the present invention, Figure 2 is a block diagram showing the configuration of a mobile communication terminal according to the present invention, Figure 3 is an embodiment of a mobile communication terminal according to the present invention It is an exemplary diagram showing the.

As shown in FIGS. 1 and 2, a mobile communication terminal having a distance measuring function using an infrared communication module according to the present invention includes an infrared communication module 10 capable of wireless data communication using an infrared signal, and the infrared ray. The control unit 20 for measuring the distance using the error rate of the signal transmitted and received from the communication module 10, the display unit 30 for outputting the distance value data of the control unit 20, and the error rate data according to the distance is stored And a memory 40.

In this case, the shorter the distance between the mobile communication terminal and the subject (a) is, the lower the error rate is calculated, and the distance value thereof becomes smaller, and the distance between the mobile communication terminal and the subject (a) is increased. The longer the error rate is calculated, the higher the error value (error-rate table) is stored.

In addition, the memory 40 stores a pattern (for example, '1111 1111 1111' or '0110 0111 0100, etc ..) of a signal having a high error occurrence rate, so that the request of the controller 20 is made. The pattern is provided whenever it is present.

The control unit 20 includes a mode converting unit 21 for converting the mobile communication terminal into a distance measuring mode, a signal generating unit 22 generating a signal for measuring a distance to a subject, and the infrared communication module. It comprises a distance measuring unit 23 for analyzing the signal transmitted from the (10) to measure the distance according to the error rate.

At this time, the mode conversion unit 21 switches the mobile communication terminal to the distance measurement mode and initializes the infrared communication module 10 every distance measurement, so that a collision or interference of signals does not occur during distance measurement. do.

That is, when the mode converting unit 21 is to measure the distance from the subject 'A' while measuring the distance from the subject 'A', the mode converting unit 21 reflects the signal reflected from the subject 'A' and returns. Since the signal reflected back from the subject 'B' is repeatedly received, an incorrect distance may be measured, so that the infrared communication module 10 is initialized every time the mobile communication terminal switches to the distance measurement mode. .

In addition, when the mode converter 21 transmits / receives a signal for distance measurement from a subject “C” while transmitting or receiving a data signal with another mobile communication terminal, the data signal and the signal for distance measurement. Since interference or collision may occur between the mobile terminal and the mobile terminal, the infrared communication module 10 is initialized every time the mobile communication terminal is switched to the distance measurement mode.

The signal generator 22 generates a signal using a signal pattern stored in the memory 40, and transmits the signal from the infrared communication module 10.

That is, when measuring the distance between the mobile communication terminal and the subject (a), the signal generator 22 generates a signal of '1111 1111 1111' and the subject (a) through the infrared communication module 10. To send the signal.

In addition, when measuring the distance between the mobile communication terminal and the subject (a), the signal generator 22 generates a signal of '1111' and transmits a plurality of shortwave signals, thereby causing an error rate of each of the shortwave signals. The distance value data can be calculated through the average value of.

The distance measuring unit 23 detects an error signal among electrical signals applied through the infrared communication module 10, calculates an error rate of the transmitted signal, and measures a distance using the calculated error rate.

In this case, the distance measuring unit 23 measures distance value data with respect to the calculated error rate using the error rate table.

For example, if the error rate table (error-rate table) is prepared based on a maximum of 20m, if the error rate calculated from the distance measuring unit 23 is 25%, the movement When the distance value data between the communication terminal and the subject a becomes '5', and the error rate calculated by the distance measuring unit 23 is 75%, the distance value data between the mobile communication terminal and the subject a is '15'. Becomes.

Further, when the distance between the mobile communication terminal and the subject (a) is greater than or equal to the maximum measurement distance, the distance measuring unit 23 generates a message indicating that the subject (a) is not included in the measurement distance range. By doing so, the message is output through the display unit 30.

The infrared communication module 10 may recognize an infrared ray transmitter 11 for transmitting an infrared signal, an infrared ray receiver 12 for receiving an infrared signal returned from a subject, and the signal may be recognized by the controller 20. And a signal converter 13 for converting a signal transmitted / received through the infrared transmitter 11 and the infrared receiver 12.

That is, when a signal is applied from the control unit 20, the infrared communication module 10 converts an electrical signal into an infrared signal through the signal conversion unit 13 and transmits the infrared signal to the infrared transmission unit 11. do.

In addition, when the infrared signal is applied through the infrared receiver 12, the infrared communication module 10 may convert the infrared signal into an electrical signal using the signal converter 13.

In this case, the infrared transmitter 11 includes a light emitting device such as a light emitting diode (LED), and the infrared receiver 12 includes a light receiving device such as a photo diode (PD).

In addition, the infrared transmitter 11 has a bright color that emits light well, and the infrared receiver 12 has a dark color to absorb light well.

In addition, the infrared communication module 10 is initialized when the mobile communication terminal is switched to the distance measurement mode by the control unit 20 so that a signal transmitted / received does not collide or interfere.

As shown in FIG. 3, when the signal is transmitted through the infrared transmitter 11, the mobile terminal is reflected by the vehicle and received through the infrared receiver 12.

The infrared communication module 10 measures the distance between the mobile communication terminal and the vehicle by applying the transmitted signal to the control unit 20.

For example, when the distance between the mobile communication terminal and the vehicle is 5m, the mobile communication terminal detects an error signal among signals reflected from the vehicle and calculates an error rate when the distance between the mobile communication terminal and the vehicle is 5m. . In this case, when the error rate is calculated as 16.7%, the mobile communication terminal calculates that the distance between the mobile communication terminal and the vehicle is 5m through an error rate table having the maximum distance value of 30m.

Looking at the operation of the present invention configured as described above are as follows. 4 is a flowchart illustrating a method of operating a mobile communication terminal equipped with a distance measurement function using an infrared communication module according to the present invention.

When the mobile communication terminal is switched to the distance measurement mode (S1), an initialization signal is applied to the infrared communication module, and the infrared communication module is initialized (S2).

The mobile communication terminal generates a signal of a specific pattern having a high error occurrence rate (S3), converts the signal of the specific pattern into an infrared signal and transmits the signal to the subject through the infrared communication module (S4, S5).

When the signal reflected from the subject is received (S6) and the received signal is converted into an electrical signal (S7), an error signal is detected among the signals.

At this time, the error rate according to the detected error signal is calculated (S8).

It is determined whether there is data for the error rate in the error rate table (S9), and if the corresponding error rate exists in the error rate table, distance value data for the error rate is calculated (S10).

The calculated distance value data is stored in a memory and output through a display screen (S11).

At this time, if the error rate is small, a low value distance value is measured. If the error rate is high, a high value distance value is measured.

For example, when the maximum measurement distance from the mobile communication terminal is 20m, if the signal transmitted from the mobile communication terminal is '1101 0111 1011' and the received signal is '1001 1000 0010', The error rate of the received signal is 58.3%, and the distance value thereof is measured as '11 .7 'and is output through the display screen.

Further, when the error rate of the received signal for the transmission signal is 15%, the distance value data between the mobile communication terminal and the subject is measured as '3', and if the error rate of the received signal for the transmission signal is 80%, the The distance data between the mobile terminal and the subject is measured as '16'.

In addition, when the corresponding error rate does not exist in the error rate table, a message indicating that distance measurement is not possible because the subject does not exist within a distance range that can be measured by the infrared communication module is generated (S12), and the message is displayed. Output to the screen.

Therefore, the mobile communication terminal and its operation method equipped with the distance measuring function using the infrared communication module transmit a signal to the subject through the infrared communication module used only for data communication, and receive the signal reflected from the subject to reduce the error rate. By calculating, the distance measurement can be performed using the error rate.

As described above, the mobile communication terminal equipped with the distance measuring function using the infrared communication module and the operation method thereof according to the present invention have been described with reference to the illustrated drawings, but the present invention is not limited by the embodiments and drawings disclosed herein. In addition, the technical idea can be applied within the scope of protection.

The mobile communication terminal equipped with the distance measuring function using the infrared communication module and the operation method according to the present invention configured as described above transmits a signal to the subject through the infrared communication module and receives the signal reflected from the subject to reduce the error rate. By calculating, it is possible to measure the distance using the error rate, thereby increasing the utilization of the infrared communication module.

Claims (12)

An infrared communication module capable of wireless data communication using an infrared signal; A memory having an error rate table storing a distance value according to an error rate of a signal received through the infrared communication module; And And a controller configured to calculate an error rate of a signal received by the infrared communication module and reflected by a subject and received by the infrared communication module, and calculate a distance according to the error rate calculated by referring to the error rate table. Mobile communication terminal equipped with a distance measurement function using an infrared communication module. The method of claim 1, The control unit includes a mode conversion unit to switch to the distance measurement mode; A signal generator for generating a signal transmitted through the communication module; And And a distance measuring unit for calculating a distance according to an error rate of the signal received through the infrared communication module with reference to the error rate table. The method of claim 2, The signal generator is a mobile communication terminal having a distance measurement function using an infrared communication module, characterized in that for generating a signal of a specific pattern with a high error rate (error). The method of claim 2, And a display unit for displaying the distance calculated by the distance measuring unit. The mobile communication terminal having a distance measuring function using the infrared communication module further comprises. The method of claim 2, The distance measuring unit is a mobile communication with a distance measurement function using an infrared communication module, characterized in that for detecting an error by reading the signal received through the infrared communication module, and calculating the error rate based on the detected error. terminal. The method of claim 1, The infrared communication module, the infrared transmission unit for transmitting an infrared signal; An infrared receiver which receives a signal reflected from the subject and returns; And And a signal converting unit converting the transmitted / received signal into any one of an infrared signal and an electrical signal. The method of claim 1, The infrared communication module is a mobile communication terminal having a distance measurement function using the infrared communication module, characterized in that initialized when switching to the distance measurement mode. Setting an error rate table in which a distance value according to an error rate of a signal received through an infrared communication module capable of wireless data communication using an infrared signal is stored; Transmitting a signal through the infrared communication module; Receiving a signal reflected from a subject through the infrared communication module; And Calculating an error rate of the received signal, and calculating a distance according to the calculated error rate with reference to the error rate table; an operation of a mobile communication terminal having a distance measurement function using an infrared communication module, comprising: Way. The method of claim 8, Initializing when the infrared communication module is switched to the distance measurement mode; Operation method of a mobile communication terminal having a distance measurement function using an infrared communication module, characterized in that it further comprises. The method of claim 8, And a signal transmitted through the infrared communication module is a signal having a high error occurrence rate having a specific pattern. The method of claim 8, In the step of measuring the distance, if the error rate of the received signal in the error rate table, the distance measuring function using the infrared communication module, characterized in that for calculating the distance according to the operation of the mobile communication terminal equipped with Way. The method of claim 8, In the measuring of the distance, when the error rate of the received signal does not exist in the error rate table, generating a message indicating that the subject is outside the measurable range; infrared communication, characterized in that it further comprises Method of operation of a mobile communication terminal equipped with a measurement function using the module.

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